Effect of water storage on the impact strength of three glass fiber-reinforced composites

Craig, 1993 Anusavice, 1996 Ruyter, 1986, Development of carbon/graphite fiber reinforced poly(methyl methacrylate) suitable for implant-fixed denture bridges, Dent Mater, 2, 6, 10.1016/S0109-5641(86)80062-8 Takahashi, 1998, Effect of water sorption on the resistance to plastic deformation of a denture base material relined with four different denture reline materials, Int J Prosthodont, 11, 49 Chai, 1998, The flexural strengths of denture base acrylic resins after relining with a visible-light activated material, Int J Prosthodont, 11, 121 Takahashi, 1999, Equilibrium strengths of denture polymers subjected to long-term water immersion, Int J Prosthodont, 12, 348 Chai J, Takahashi Y, Hisama K, Shimizu H. Water sorption and dimensional stability of three glass fiber-reinforced-composites. Int J Prosthodont, accepted for publication. Behr, 2000, Flexural properties of fiber reinforced composite using a vacuum/pressure or a manual adaptation manufacturing process, J Dentistry, 28, 509, 10.1016/S0300-5712(00)00031-2 Miettinen, 1999, Water sorption, solubility and effect of post-curing of glass fibre reinforced polymers, Biomaterials, 20, 1187, 10.1016/S0142-9612(99)00003-4 Vallittu, 1998, Effect of water storage on the flexural properties of E-glass and silica fiber acrylic resin composite, Int J Prosthodont, 11, 340 Vallittu, 1998, Compositional and weave pattern analyses of glass fibers in dental polymer fiber composites, J Prosthodont, 7, 170, 10.1111/j.1532-849X.1998.tb00200.x Chai J, Takahashi Y, Hisama K, Shimizu H. Effect of water storage on the flexural properties of three glass fiber-reinforced-composites. Int J Prosthodont, submitted for publication. Ladizesky, 1993, Acrylic resin reinforced with chopped high performance polyethylene fiber—properties and denture construction, Dent Mater, 9, 128, 10.1016/0109-5641(93)90089-9 Vallittu, 1995, Impact strength of denture polymethyl methacrylate reinforced with continuous glass fibers or metal wire, Acta Odontol Scand, 53, 392, 10.3109/00016359509006007 Vallittu, 1997, Impact strength of a modified continuous glass fiber-poly(methyl methacrylate), Int J Prosthodont, 10, 142 2000 Abernethy, 1996 Chai, 2000, Probability of fracture of all-ceramic crowns, Int J Prosthodont, 13, 420 Takahashi, 2002, Probability of failure of highly filled indirect resin veneered implant supported restorations, Int J Prosthodont, 15, 179 Chong, 2002, Flexural strength of in-ceram alumina and in-ceram zirconia core materials, Int J Prosthodont, 15, 183 Chong, 2003, Strength and mode of failure of unidirectional and bi-directional glass fiber-reinforced composite materials, Int J Prosthodont, 16, 161 Chong, 2003, Probability of failure of veneered glass-fiber-reinforced-composites and glass-infiltrated alumina with or without zirconia reinforcement, Int J Prosthodont, 16, 487 Chou, 1992 Jayatilaka, 1979 Weibull, 1951, A statistical distribution function of wide applicability, J Appl Mech, 18, 293, 10.1115/1.4010337 Hyer, 1998, Failure theories for fiber-reinforced materials: maximum stress criterion Morley, 1987, Composite fracture under tensile loading